Single source multiple-frequency configuration, Description, To use this configuration – Agilent Technologies Multiple Channel Controller 85330A User Manual

Page 79: Single source multiple-frequency configuration -5, Description -5 to use this configuration -5

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85330A Multiple Channel Controller

6-5

Programming

Single Source Multiple-Frequency Configuration

Single Source Multiple-Frequency Configuration

Description

In single-source (8511A/B based) systems, the Fast Source Control mode is
not available. The RF source is controlled by the 8530A (Analyzer
Language mode). The proper setup is shown in

Figure 1-2 on page 1-4

.

The Fast Data Acquisition modes of the 8530A cannot be used with this type
of measurement. Instead, the multiple parameter display of the 8530A is
used to measure each switch input.

Refer to the programming

“Example 2” on page 6-25

.

NOTE

When using the multiple parameter display feature, the minimum switch
settling time (RUNT:SWIT:DEL) is 50

µ

s. Using shorter settling times in

multiple parameter display mode can cause measurement problems

To Use this
Configuration

Here is an overview of how measurements are made in this configuration.
Remember, GPIB commands must be immediately followed by a semicolon
when entered into an actual program. For example

NUMEB1;.

8530A settings

Select multiple parameter display mode on the 8530A. The number of
parameters selected should equal the number of test signals you are
measuring. For example, assume you have a two-throw receive switch
connected to two test signals. In this case, program the 8530A for two
parameter display GPIB command

TWOP.

This is the equivalent of

pressing

[DISPLAY] {DISPLAY MODE} {TWO PARAMETER}.

Set each parameter to measure the same input ratio. For example, set
them all to measure b1/a1. The numerator and the denominator are
defined below:

The numerator is the input port (of the frequency downconverter)
that is connected to the common port of the receive switch. Set this
using the GPIB

NUMEB1, NUMEB2, NUMEA1,

or

NUMEA2

command. This is

equivalent to pressing PARAMETER

{MENU} {REDEFINE PARAMETERS}

{NUMERATOR},

then

{NUMERATOR: b1}, {NUMERATOR: b2}, {NUMERATOR: a1},

or

{NUMERATOR: a2}

.

The denominator is the input port that is connected to the reference
signal. Use the

DENOA1, DENOA2

, or

DENOB1

command. This is

equivalent to pressing PARAMETER

{MENU} {REDEFINE PARAMETERS}

{DENOMINATOR}

, then

{DENOM.: a1}, {DENOM.: a2}

, or

{DENOM.: b1}.

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